It is a part of five book series on Botany for Degree Students. The revised edition of Botany for Degree Students- Algae deals with the important system of classification of the plant kingdom, an account of thallophytes, life histories of important representatives of each class of algae and various aspects of the life cycles of algae.
- Algae By Vashishta Pdf Free Download
- Algae By Vashishta Pdf Free Pdf
- Algae By Vashishta Pdf Free Printable
Zanerian manual. Oct 03, 2015 Hope that you must have already downloaded the Yoga Vasishtha from Archive, as per the previous response. In case you have not yet done that, here are the links. English Translation - Yoga Vasishta Of Valmiki Valmiki: Vasishta of Valmiki: Free. Spirogyra, any member of a genus of some 400 species of free-floating green algae found in freshwater environments around the world. Named for their beautiful spiral chloroplasts, spirogyras are filamentous algae that consist of thin unbranched chains of cylindrical cells.
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10.3 Algae Growth and Reaction Conditions
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There are two primary ways that algae reproduce. Some algae are unicellular and demonstrate the simplest possible life cycles (see Figure 10.6a). Note that there is a generative phase and a vegetative phase. During the generative phase, cysts are freed. The cysts open to form gametes and then form the zygote. From there, the vegetative phase occurs so the plant grows and new cysts can form. Most algae have two recognizable phases, sporophyte and gametophyte. Figure 10.6b shows a schematic of the two phases. The main difference is a male and female type is required to form the zygote. I will not be expecting you to know the details in depth, but want you to recognize there are differences.
Figure 10.6a: Life cycle of unicellular algae. The vegetative phase: zygote, stalk growth, whorl formation, cap formation, maximum cap Onn digital alarm clock radio manual.
The generative phase: from the maximum cap to cyst formation, add secondary nuclei, free cysts with many nuclei, formation of gametes, to opening of cysts releasing gametes, the copulation which results in a zygote
Figure 10.6b: Two-phase regeneration of algae. This type requires a male and female to form the zygote. Diploid (2N) Zygote goes through mitosis to make a sporophyte, sporophyte undergoes mitosis to produce haploid (1N) spores. New dyno for mac. Spores undergo germination to make a young gametophyte. Mitosis results in mature male and female gametophytes. Mitosis produces egg and sperm which become a diploid (2N) zygote through fertilization
Credit: modification of work by Mariana Ruiz Villareal via OpenStax
Algae have a particular path of growth, beginning with a lag phase, and continuing on to an exponential phase, a linear phase, and stationary phase, and decline of death phase. Figure 10.7 shows a schematic of algal growth rate in a batch culture.
Figure 10.7: Growth of algae culture. The figure is similar to several online.
There are several factors that influence the growth rate. The temperature will vary with algae species. The optimal temperature range for phytoplankton cultures is 20-30°C. If temperatures are higher than 35°C, it can be lethal for a number of algal species, especially green microalgae. Temperatures that are lower than 16°C will slow down the growth of algae.
Light also has an effect on the growth of algae: it must not be too strong or weak. In most algal growth cultivation, algae only need about 1/10 of direct sunlight. In most water systems, light only penetrates the top 7-10 cm of water. This is due to bulk algal biomass, which blocks light from reaching into deeper water.
Mixing is another factor that influences the growth of algae. Agitation or circulation is needed to mix algal cultures. An agitator is used for deep photo reactor systems. Paddle wheels are used for open pond systems. And pump circulation is used for a photo-tube system. Color iq test.
Algae By Vashishta Pdf Free Download
Of course, algae need nutrients and the proper pH to grow effectively. Autotrophic growth requires carbon, hydrogen, oxygen, nitrogen, phosphorous, sulfur, iron, and trace elements. The compositional formula of C O1.48 H1.83 N0.11 P0.01 can be used to calculate the minimum nutrient requirement. Usb 3.0 gigabit ethernet adapter driver windows 10. Under nutrient limiting conditions, growth is reduced significantly and lipid accumulation is triggered. Algae prefer a pH from neutral to alkaline.
There are particular steps for algal biodiesel production. Figure 10.8 shows the processing steps for algae production in biodiesel production. The first step is the cultivation of algae, which includes site selection, algal culture selection and process optimization. Adobe media encoder mac crack. Process optimization includes design of the bioreactor and necessary components for algal cell growth (nutrients, light, and mass transfer). Once the algae grow to the necessary level, the algae are harvested. The biomass must first be processed in order to dewater, thicken, and dry the algae in order to extract the oil that will then be processed into biodiesel. The biomass process differs depending on the method of oil extraction and biodiesel production. You primarily learned about transesterification to make biodiesel in Lesson 9, but there are other processes being researched and developed.
Figure 10.8: Steps in algal biodiesel production. Algae By Vashishta Pdf Free Pdf
Steps in algal biodiesel production
Algae By Vashishta Pdf Free Printable
The first step is algae and site selection. Then there is algae cultivation which receives light, water, CO3, and nutrients. (The algal culture, 0.02-0.06% Total suspend solids-TSS). The algal effluent (2-7% TSS) then goes to harvesting. The culture is recycled and the algal slurry (5-15% TSS) goes to biomass processing (dewatering, thickening, filtering, drying). The nutrients are recycled and the algal cake (15-30% TSS) goes into oil extraction (cell disruption and oil extractions). The lipids and free fatty acids then go to biodiesel production.